Hybrid ceramic, Polymer-infiltrated ceramic network, PICN, Implant, One-piece, Zirconia
Fig. 3. Area of abrasion (yellow surface) and maximum vertical wear (arrow) : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implant
author: Pia Baumgart, Holger Kirsten, Rainer Haak, Constanze Olms | publisher: drg. Andreas Tjandra, Sp. Perio, FISID
Fig. 3. Area of abrasion (yellow surface) and maximum vertical wear (arrow)
Serial posts:
- Abstract : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Background : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Methods : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation [1]
- Methods : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation [2]
- Methods : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation [3]
- Results : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Discussion : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation [1]
- Discussion : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation [2]
- Discussion : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation [3]
- Conclusions : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Abbreviations : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- References : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation [1]
- References : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation [2]
- Acknowledgements : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Author information : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Ethics declarations : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Rights and permissions : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- About this article : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Table 1 Micro-CT scanning parameters of the replicas before and after CS : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Table 2 Mean (standard deviation) of assessed parameters : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Table 3 Stability of conditions across four CS rounds : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implants after long-term chewing simulation
- Fig. 1. Luted crown on embedded implant before chewing simulation : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implant
- Fig. 2. Four replicas on specimen stubs and foam pellets in the sample holder of the Micro-CT : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implant
- Fig. 3. Area of abrasion (yellow surface) and maximum vertical wear (arrow) : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implant
- Fig. 4. Luting agent located mostly in the crown (a) and only sparsely on the implant (b). A crown fragment is remaining on the implant : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implant
- Fig. 5. SEM images of the mesial margin of abrasion under topography contrast (a) and material contrast (b) : Biomechanical properties of polymer-infiltrated ceramic crowns on one-piece zirconia implant